Shinji Himori

Shinji Himori, Nirasaki JP

Patent application number

Description

Published

20110031217

PLASMA PROCESSING APPARATUS AND PLASMA PROCESSING METHOD - A plasma processing apparatus includes: a processing chamber that accommodates a substrate therein; a lower electrode positioned within the processing chamber and serving as a mounting table; an upper electrode positioned to face the lower electrode within the processing chamber; a first high frequency power supply that applies high frequency power for plasma generation of a first frequency to the lower electrode or the upper electrode; a second high frequency power supply that applies high frequency power for ion attraction of a second frequency lower than the first frequency to the lower electrode; at least one bias distribution control electrode positioned at least in a peripheral portion above the lower electrode; and at least one bias distribution control power supply that applies an AC voltage or a square wave voltage of a third frequency lower than the second frequency to the at least one bias distribution control electrode.

02-10-2011

Shinji Himori, Nirasaki City JP

Patent application number

Description

Published

20090236043

PLASMA PROCESSING APPARATUS - A plasma processing apparatus includes a processing gas supplying unit for supplying a desired processing gas to a processing space between an upper electrode and a lower electrode which are disposed facing each other in an evacuable processing chamber. The plasma processing apparatus further includes a radio frequency (RF) power supply unit for applying an RF power to one of the lower and the upper electrode to generate plasma of the processing gas by RF discharge and an electrically conductive RF ground member which covers a periphery portion of the electrode to which the RF power is applied to receive RF power emitted outwardly in radial directions from the periphery portion of the electrode to which the RF power is applied and send the received RF power to a ground line.

09-24-2009

20090242135

PLASMA PROCESSING APPARATUS - A plasma processing apparatus includes: a vacuum-evacuable processing chamber; a lower central electrode; a lower peripheral electrode surrounding the lower central electrode in an annular shape; an upper electrode provided to face the lower central electrode and the lower peripheral electrode; a processing gas supply unit for supplying a processing gas into the processing chamber; an RF power supply for outputting an RF power for generating a plasma; and a power feed conductor connected to a rear surface of the lower peripheral electrode to supply the RF power to the lower peripheral electrode. The apparatus further includes a variable capacitance coupling unit for electrically connecting the lower central electrode with at least one of the power feed conductor and the lower peripheral electrode by capacitance coupling with a variable impedance in order to supply a part of the RF power from the RF power supply to the lower central electrode.

10-01-2009

20100071850

MOUNTING TABLE AND PLASMA PROCESSING APPARATUS - A mounting table for use in a plasma processing apparatus, on which a substrate is mounted, includes: a conductive member connected to a high frequency power supply and a high frequency power supply; a dielectric layer embedded in a central portion on an upper surface of the conductive member; and an electrostatic chuck mounted on the dielectric layer. Further, the electrostatic chuck is connected to a high voltage DC power supply and includes an electrode film satisfying following conditions: δ/z≧85 (where δ=(ρ

03-25-2010

20100078129

MOUNTING TABLE FOR PLASMA PROCESSING APPARATUS - A mounting table for use in a plasma processing apparatus, on which a substrate is mounted, includes: an inner conductive member connected to an ion attracting RF power supply; an outer conductive member connected to a plasma generating RF power supply, the outer conductive member surrounding the inner conductive member; and a partition member formed of a dielectric material, the partition member partitioning between the inner conductive member and the outer conductive member. Further, the mounting table includes an electrostatic chuck formed of a dielectric material and arranged between the substrate and the inner conductive member, and between the substrate and the outer conductive member; and a dielectric layer arranged between the electrostatic chuck and the inner conductive member to conceal the inner conductive member from the electrostatic chuck. The electrostatic chuck includes an electrode film that is connected to a high voltage DC power supply.

04-01-2010

20100224323

PLASMA PROCESSING APPARATUS AND ELECTRODE FOR SAME - A plasma processing apparatus includes a processing chamber that plasma processes a target object therein, first and second electrodes that are provided in the processing chamber to face each other and have a processing space therebetween, and a high frequency power source that is connected to at least one of the first and second electrodes to supply high frequency power to the processing chamber. At least one of the first and second electrodes includes a base formed of a metal, a dielectric material provided at a central portion of a plasma side of the base, and a first resistor provided between the dielectric material and plasma, and formed of a metal with a predetermined pattern.

09-09-2010

20100224325

PLASMA PROCESSING APPARATUS AND ELECTRODE FOR SAME - A plasma processing apparatus includes a processing chamber in which a target object is processed by a plasma, a first and a second electrode that are provided in the processing chamber to face each other and have a processing space therebetween, and a high frequency power source that is connected to at least one of the first and the second electrode to supply a high frequency power to the processing chamber. And at least one of the first and the second electrode includes a base formed of a plate-shaped dielectric material and a resistor formed of a metal and provided between the base and the plasma.

09-09-2010

20100243607

SUBSTRATE PROCESSING APPARATUS AND SUBSTRATE PROCESSING METHOD USING SAME - A substrate processing method uses a substrate processing apparatus including a chamber for accommodating a substrate, a lower electrode to mount the substrate, a first RF power applying unit for applying an RF power for plasma generation into the chamber, and a second RF power applying unit for applying an RF power for bias to the lower electrode. The RF power for plasma generation is controlled to be intermittently changed by changing an output of the first RF power applying unit at a predetermined timing. If no plasma state or an afterglow state exists in the chamber by a control of the first RF power applying unit, an output of the second RF power applying unit is controlled to be in an OFF state or decreased below an output of the second RF power applying unit when the output of the first RF power applying unit is a set output.

09-30-2010

20110155322

PLASMA PROCESSING APPARATUS - A plasma processing apparatus includes a processing chamber in which a target substrate is processed; an application electrode and a facing electrode provided to face each other in the processing chamber, a plasma generation space being formed between the application electrode and the facing electrode; and an RF power supply connected to the application electrode, an RF power being supplied from the RF power supply to the application electrode. At least one of the application electrode and the facing electrode includes a base formed of a metal, and a dielectric body inserted into the base, one or more metal plate electrodes being buried in the dielectric body.

06-30-2011

20130075037

PLASMA PROCESSING APPARATUS - A plasma processing apparatus includes a processing gas supplying unit for supplying a desired processing gas to a processing space between an upper electrode and a lower electrode which are disposed facing each other in an evacuable processing chamber. The plasma processing apparatus further includes a radio frequency (RF) power supply unit for applying an RF power to one of the lower and the upper electrode to generate plasma of the processing gas by RF discharge and an electrically conductive RF ground member which covers a peripheral portion of the electrode to which the RF power is applied to receive RF power emitted outwardly in radial directions from the periphery portion of the electrode to which the RF power is applied and send the received RF power to a ground line.

Shinji Himori, Kurokawa-Gun JP

Patent application number

Description

Published

20130062016

TRANSFER APPARATUS AND PLASMA PROCESSING SYSTEM - A transfer apparatus transfers an object to be transferred onto a case. The transfer apparatus includes a transfer arm, an arm shaft, a plurality of electromagnets, and a control unit. The transfer arm has a pick unit on a front end thereof and extends and retracts in a horizontal direction. The object to be transferred is held on the pick unit. The arm shaft supports the transfer arm. The plurality of electromagnets apply an force in upward direction to the transfer arm by generating a magnetic field in the case. The control unit controls the plurality of electromagnets in such a manner that when the transfer arm extends and retracts in the horizontal direction, the force in upward direction applied to the transfer arm increases as a length from the arm shaft to the front end of the transfer arm increases.

03-14-2013

20140206199

ETCHING METHOD OF MULTILAYER FILM - In an etching method of a multilayer film including a first oxide film and a second oxide film, a high frequency power in etching an organic film is set to be higher than those in etching a first and second oxide films, and high frequency bias powers in the etching of the first and second oxide films are set to be higher than that in the etching of the organic film. In the etching of the first and second oxide films and the organic film, a magnetic field is generated such that horizontal magnetic field components in a radial direction with respect to a central axis line of a target object have an intensity distribution having a peak value at a position far from the central axis line, and a position of the peak value in the etching of the organic film is closer to the central axis line.

07-24-2014

20140346040

SUBSTRATE PROCESSING APPARATUS - A substrate processing apparatus can easily control a plasma intensity distribution in a processing space. A substrate processing apparatus

11-27-2014

20150072534

ETCHING METHOD OF MULTILAYER FILM - A plasma processing apparatus for performing a plasma process on a substrate includes: a mounting table configured to mount thereon the substrate; an electromagnet including a core member and a plurality of coils; a current source connected to both ends of the coils for supplying currents to the coils; and a control unit configured to control the current source to start or stop and to control a current value of the current source. The core member is made of a magnetic material and has a structure including a column-shaped member, multiple cylindrical members, and a base member. The plurality of coils are accommodated in grooves and wound around an outer peripheral surface of the column-shaped member and the cylindrical members, and the grooves are formed between the column-shaped member and one of the cylindrical members and between the cylindrical members.

03-12-2015

Patent applications by Shinji Himori, Kurokawa-Gun JP

Shinji Himori, Yamanashi JP

Patent application number

Description

Published

20140020832

SUBSTRATE PROCESSING APPARATUS AND SUBSTRATE PROCESSING METHOD USING SAME - A substrate processing method uses a substrate processing apparatus including a chamber for accommodating a substrate, a lower electrode to mount the substrate, a first RF power applying unit for applying an RF power for plasma generation into the chamber, and a second RF power applying unit for applying an RF power for bias to the lower electrode. The RF power for plasma generation is controlled to be intermittently changed by changing an output of the first RF power applying unit at a predetermined timing. If no plasma state or an afterglow state exists in the chamber by a control of the first RF power applying unit, an output of the second RF power applying unit is controlled to be in an OFF state or decreased below an output of the second RF power applying unit when the output of the first RF power applying unit is a set output.

01-23-2014

Shinji Himori, Miyagi JP

Patent application number

Description

Published

20130220547

SUBSTRATE PROCESSING APPARATUS - A substrate processing apparatus generates an electric field in a processing space between a lower electrode to which a high frequency power is supplied and an upper electrode facing the lower electrode and performs plasma processing on a substrate mounted on the lower electrode by using a plasma generated by the electric field. Distribution of a plasma density in the processing space is controlled by a magnetic field generated by controlling a plurality of electromagnets provided at a top surface of the upper electrode which is provided to be opposite to the processing space.

08-29-2013

20140213055

SEMICONDUCTOR MANUFACTURING DEVICE AND PROCESSING METHOD - A semiconductor manufacturing device includes a stage, a plurality of pins, and a driving unit. The stage includes a mounting surface. The mounting surface has a first region for mounting thereon a substrate, and a second region for mounting thereon a focus ring. The second region is provided to surround the first region. A plurality of holes is formed in the stage. The holes extend in a direction that intersects the mounting surface while passing through the boundary between the first region and the second region. The pins are provided in the respective holes. Each of the pins has a first and a second upper end surface. The second. upper end surface is provided above the first upper end surface, and is offset towards the first region with respect to the first upper end surface. The driving unit moves the pins up and down in the aforementioned direction.